KR100979705B1 - Apparatus for chasing of a radio channel using GPS - Google Patents

Abstract

    The present invention relates to a radio channel tracking device using GPS. The apparatus of the present invention includes a location information input unit for receiving location information from a GPS receiver, a tuning signal output unit for outputting a tuning signal to the tuner, and a radio frequency DB for storing the tuning frequencies for each region by radio channel ID; And setting a channel ID and a channel region of the radio channel inputted from the channel selection key input unit, and reading the preset frequency of the channel region changed by the position information inputted from the position information input unit from the radio frequency DB to the tuning signal output unit. And a channel tracking controller for continuously outputting a radio channel of the same channel ID by outputting the tuning signal. Accordingly, the present invention provides the effect that the listener can continuously listen to the radio channel selected initially while moving.

Radio Channel, Channel Tracking, Auto Tuning

Description

Apparatus for chasing of a radio channel using GPS}

The present invention relates to a device for tracking a radio channel, and relates to a radio channel tracking device that allows a user to continuously listen to a desired channel without affecting the user's continuous position change.

In general, a user must select and set various broadcasting channels in order to select a channel to be listened to while listening to the radio. This method is not only time-consuming and troublesome due to channel searching, Occasionally, a user missed a desired program and could not listen to it.

Therefore, there has been an automatic tuning device for automatically tuning to a desired channel by time zone to listen to the radio.

Hereinafter, an automatic channel tuning apparatus for a radio channel will be described with reference to FIG. 1.

      1 is a block diagram showing a time slot automatic tuning device of a conventional radio channel.

      Referring to FIG. 1, a wireless communication terminal 10 and a radio receiver 100 are provided, and the radio receiver 100 includes a key input unit 110, a serial communication module 120, a display unit 130, and a memory 140. , A system controller 160, a tuner unit 170, and a voice signal processor 180.

      The wireless communication terminal 10 is configured to receive an information about a radio channel schedule by accessing an external database system (not shown) using a wireless internet service (WAP).

      The key input unit 110 included in the radio receiver 100 is composed of a plurality of key switches that can input a download command for a radio channel schedule and a command for performing various functions.

      In addition, the serial communication module 120 transmits an automatic call connection and transmission request signal to the wireless communication terminal 10 according to a download command for the radio channel schedule table of the key input unit 110 or is received by the wireless communication terminal 10. It is composed of a serial communication equipment to download the information related to the radio channel schedule, and the display unit 130 is configured to display the classification list by genre or genre related to the radio channel schedule received through the serial communication module 120.

      In addition, the memory 140 is configured to store a system control program and to store information on a specific radio channel schedule received through the serial communication module 120, and the system controller 160 controls operations of the various devices. It controls and stores the radio channel programming information received through the serial communication module 120 in the memory 140, and compares the radio channel programming information stored in the memory 140 with the current time to receive the radio channel according to the programming information. Is configured to adjust automatically.

      In addition, the tuner unit 170 is configured to selectively amplify a specific radio frequency induced by the antenna according to the channel adjustment signal of the system controller 160 and convert it into an intermediate frequency signal. The voice signal processor 180 includes a tuner unit ( After detecting and demodulating the intermediate frequency signal output from the 170, the speaker 190 is configured to convert the signal into a voice signal and output the same.

      In addition, the reference numeral 150, which is not described, is a timer, and supports the current date and time information to the system controller 160.

The conventional radio channel automatic tuning apparatus automatically tunes a radio channel to a listener based on radio schedule information for each time zone.

However, although the radio channel is automatically tuned by time zone, when the user moves through the vehicle while listening, the frequency of the currently tuned radio channel is different from region to region, so it is impossible to continuously listen to the currently tuned radio channel.

For example, while moving a vehicle while listening to KBS FM 89.1 in Seoul, if you arrive in Daejeon, you will have to change the frequency to 98.5, which corresponds to KBS FM 89.1 in Daejeon. I could listen to the same radio channel.

Like this, the radio broadcasting transmission frequency is different in each region, so when moving to another region, it was necessary to find the frequency and tune in again to continue listening to the broadcasting.

Accordingly, an object of the present invention is to GPS to automatically track and tune different frequencies corresponding to the same radio channel for each region by using the GPS to continuously listen to the same radio channel while moving the region to solve the above problems. It is to provide a radio channel tracking device using.

The radio channel tracking device according to the present invention for achieving the above object is connected to a GPS receiver receiving position information from a GPS satellite and a radio receiver including a channel selection key input unit and a tuner to maintain a radio channel. A location information input unit for receiving location information from the GPS receiver, a tuning signal output unit for outputting a tuning signal to the tuner, a radio frequency DB for storing a tuning frequency for each region by radio channel ID, and the database; A channel ID and a channel region of a radio channel input from a channel selection key input unit are set, and the tuning frequency of the channel region changed by the position information input from the location information input unit is read from the radio frequency DB, and the tuning signal is output to the tuning signal output unit. To output the radio channel of the same channel ID. It characterized in that it comprises a channel tracking control unit for continuously output.

In addition, the channel tracking controller continuously checks whether the channel region has been departed based on the position information continuously input from the GPS information input unit to determine whether the channel region has been changed.

In addition, the channel tracking control unit may be configured to store the changed channel region with the same channel ID.

Accordingly, the apparatus of the present invention provides the effect that the listener can continuously listen to the radio channel selected by the listener during the movement without having to tune to the frequency of the region whenever the region is changed by moving while listening to a specific radio channel. .

Hereinafter, with reference to the accompanying Figures 2 to 5 will be described in detail a preferred embodiment of the present invention.

2 is a schematic diagram of an automatic tracking device for a radio channel according to an embodiment of the present invention.

Referring to FIG. 2, the channel tracking device 30 according to the present invention is connected to a GPS receiver 20 for receiving location information, and is connected to a radio receiver 40 for listening to a radio broadcast on a tracked channel. .

The channel tracking device 30 is installed in a mobile device such as a vehicle moving while listening to a radio broadcast. In FIG. 2, the channel tracking device 30 is connected to the GPS receiver 20 and the radio receiver 40. If not, it is obvious that the same function is performed even when mounted together inside the GPS receiver 20 or the radio receiver 40.

Here, the GPS receiver 20 continuously receives the location information from the GPS satellites and transmits the location information to the channel tracking device 30 in real time. The radio receiver 40 is a component included in the radio apparatus, and includes a configuration in which a radio frequency can be tuned to allow a listener to listen to a radio broadcast of a desired radio channel.

That is, the radio receiver 40 may generally include a tuner (not shown) for tuning a radio channel and a channel selection key input unit (not shown) for selecting a radio channel of a listener.

3 is a detailed block diagram of the channel tracking apparatus of FIG. 2.

Referring to FIG. 3, the channel tracking device 30 receives the position information from the GPS receiver 20 and outputs the position information input from the GPS information input unit 31 and the GPS information input unit 31. Radio channel from the channel tracking control unit 32 that controls each component to continuously maintain the radio channel, and the radio frequency DB 33 and the channel tracking control unit 32 to database and store the frequencies of radio channels for each region. And a tuning signal output unit 34 for outputting a tuning signal to a tuner (not shown) of the radio receiver.

In FIG. 3, the listener selects a radio channel for searching for a frequency of a desired radio channel by using a channel selection key input unit provided in the radio receiver 40. Then, the radio receiver 40 notifies the tuner of the channel selection key input signal to its tuner so that the listener can tune into the currently selected radio channel. At the same time, the radio receiver 40 outputs the channel selection key input signal selected by the listener to the channel tracking controller 32. Here, when the channel selection key is input, the channel tracking device 30 is automatically turned on to start channel tracking. If the radio receiver 40 does not input the radio channel selection key, the channel tracking device 30 is turned off. In addition, in addition to the channel selection key of the radio receiver 40, the channel tracking device 30 may include a separate on / off switch for determining whether or not to track the channel.

Then, the channel tracking controller 32 sets the channel ID of the currently selected radio channel and the channel region input through the current GPS information input unit 31. That is, if the current region is Seoul and the radio channel (channel ID: FM1) of frequency 89.1 is tuned, set it and store it. In this case, a memory (not shown) may be provided in the channel tracking control unit 32 or a separate memory may be provided and stored in the channel tracking device 30 although not shown.

After that, when the vehicle moves to determine that the location information has been changed, the channel tracking control unit 32 checks whether the channel region has deviated whenever the preset distance is reached. That is, if the channel region is changed by continuously checking whether the channel region has been departed based on the position information continuously input from the GPS information input unit 31, the frequency corresponding to the changed region is read out from the radio frequency DB 33. If a player enters Daejeon while listening to FM1 of 89.1 in Seoul, the frequency signal is cut off, so that the same radio channel FM1 cannot be heard. At this time, the channel tracking control unit 32 reads from the radio frequency DB 33 that the same radio channel FM1 is a frequency of 98.5 during the match, and outputs the tuning signal to the tuning scene call force unit 34 as a tuning signal. At the same time, the channel tracking controller 32 resets and stores the changed channel region together with the same channel ID. The tuning signal output section 34 then outputs the tuning signal to the tuner of the radio receiver 40. At this time, the tuner tunes into a new frequency so that the listener can listen to the FM1 radio channel of 89.1 frequency in Seoul as it is in Daejeon.

An example of the radio frequency DB mentioned above is shown in FIG.

4 is a view for explaining a radio frequency for each region according to the present invention.

Referring to FIG. 4, a channel ID for each radio channel is identified, and each channel ID is stored as a lookup table for broadcasting frequencies for the same radio channel selection in various regions.

For example, the radio channel FM1 can be tuned to a frequency of 89.1 in Seoul and can be tuned to a frequency of 98.5 in Daejeon. That is, it can be seen that the preset frequencies for the FM1 radio channels are different in each region.

The control state of the channel tracking control unit will be described in more detail with reference to FIG. 2 to FIG. 3.

5 is a control flowchart for automatic tracking of a radio channel according to the present invention.

Referring to FIG. 5, the channel tracking controller 32 receives a radio channel selection key input from the radio receiver 40 (step S10). The received radio channel selection key is input, and a channel ID and a channel region are set and stored (step S20). Then, the channel tracking controller 32 continuously receives the position information of the GPS information input unit 31 to determine whether the channel region has been set (step S30). As a result of the determination, when the set channel region is separated, after confirming the changed channel region (step S40), the frequency of the changed channel region corresponding to the preset channel ID is read out from the radio frequency DB 33 (step S50). The channel tracking control unit 32 outputs the read frequency to the radio receiver 40 as a tuning signal (step S60).

In the above example, when the channel region is separated, the frequencies of the two regions may be continuously changed by the frequency overlap with the adjacent region.

Therefore, the channel regions A and B and the influence regions A 'and B' should be set as shown in FIG. 6 to change the frequency.

6 is a reference diagram for a frequency change in the adjacent frequency region according to the present invention.

Referring to FIG. 6, when channel region A and channel region B are adjacent to each other, it is assumed that the channel region A and channel region B move while crossing the channel region. At this time, if the frequency region of the channel region A is expanded to the influence region A ', the frequency region of the channel region A is set to tune to the same frequency in the region A and A'. That is, if two neighboring regions overlap each other by a predetermined region, even if the two regions are moved over a short distance along the adjacent region, the existing frequency is maintained so that the frequency change problem does not occur. For channel region A, set the influence zone A 'more broadly, and for channel region B, set the influence zone B' more broadly. Here, the frequency change region is a section in which two channel regions are adjacent to each other and may vary depending on a setting value, and about 1 km is preferable.

Even if the frequency change zone is entered, the affected zone A 'enters the frequency zone of the channel zone A, so the frequency does not change and the frequency is changed to the frequency zone of the channel zone B as soon as it enters the channel zone B outside the affected zone A'.

Therefore, if a certain frequency region is overlapped by a certain distance, it is possible to eliminate the frequency change in the frequent frequency change region of the adjacent region.

1 is a diagram illustrating a conventional automatic channel tuning apparatus for a radio channel;

2 is a schematic diagram of an automatic tracking device for a radio channel according to an embodiment of the present invention;

3 is a detailed block diagram of the channel tracking device of FIG.

4 is a view for explaining a radio frequency for each region according to the present invention;

5 is a control flowchart for automatic tracking of a radio channel according to the present invention;

6 is a reference diagram for a frequency change in the adjacent frequency region according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

20: GPS receiver 30: channel tracking device

40: radio receiver 31: GPS information input unit

32: channel tracking control unit 33: radio frequency DB

34: tuning signal output unit

Claims (3)

A channel tracking device for maintaining a radio channel by connecting a GPS receiver receiving position information from a GPS satellite and a radio receiver including a channel selection key input unit and a tuner, A GPS information input unit for receiving location information from the GPS receiver; A tuning signal output unit for outputting a tuning signal to the tuner; A radio frequency DB for storing a database of stored channel frequencies by radio channel ID; And The channel ID and channel region of the radio channel inputted from the channel selection key input unit are set, and the tuning frequency of the channel region changed by the position information input from the GPS information input unit is read from the radio frequency DB and tuned to the tuning signal output unit. A channel tracking control unit for continuously outputting a radio channel of the same channel ID by outputting the signal; In the radio frequency DB, a region overlapping with a predetermined range is input to a boundary line of a channel region (for example, region A) and an adjacent channel region (for example, region B). The channel tracking control unit, On the basis of the location information continuously input from the GPS information input unit continuously checks whether the channel area has been determined to determine whether the channel area has been changed, When a vehicle enters an adjacent channel region (e.g., region B) from a channel region (e.g., region A), the vehicle exits the overlapping region set at the boundary between the channel region (e.g., region A) and the adjacent channel region (e.g., region B). The radio channel tracking device using GPS, which is changed to the frequency of the channel region (eg, region B) recognized at the moment to eliminate frequent frequency changes in the boundary region. delete The method of claim 1, The channel tracking control unit, And resetting the changed channel region together with the same channel ID to eliminate frequent frequency changes in the border region.

Images